Copper Mediates Anti-Inflammatory and Antifibrotic Activity of Gleevec in Hepatocellular Carcinoma-Induced Male Rats.

The elevated level of copper is one of the hallmark features of cancer cells in most of the types of cancer. In the present study, this feature has been targeted to investigate if coadministration of exogenous copper (Cu+) and its chelating agent like disulfiram (DSF+) influence the antineoplastic activity of the anticancer drug, Gleevec (GLV+), in hepatocellular carcinoma (HCC)-induced rats via immunomodulation. After the treatment, the level of proinflammatory interleukins (IL-1, 2, 6, and 7), anti-inflammatory interleukin (IL-10) concomitant with transcription factors (NF-kB and TNF-a), and the apoptotic marker (cleaved PARP) was estimated. The cancer-induced group without treatment (CN+) demonstrated abnormally elevated level of all proinflammatory cytokines and transcription factors concomitant with a compromised level of cleaved PARP as compared to the control normal (CN-). The detailed histological analysis also supported the results exhibiting extensive inflammation and tissue fibrosis confirming the second stage of HCC. Cu+, DSF+, and GLV+ displayed mild improvement in most of the parameters, but the combination group GLV + Cu+ demonstrated remarkable recovery in histology and most of the parameters tended towards the CN- followed by GLV + DSF+. Therefore, the management of copper level is critical in realizing the antineoplastic activity of GLV up to its full potential in cancer treatment. These findings will help in improving chemoimmunotherapy and personalized cancer treatment.

Ameliorative effect of zinc oxide nanoparticles against potassium bromate-mediated toxicity in Swiss albino rats.

Potassium bromate (PB) is a commonly used food additive, a prominent water disinfection by-product, and a class IIB carcinogen. It exerts a various degree of toxicity depending on its dose and exposure duration consumed with food and water in the living organisms. The present investigation aims to demonstrate the protective efficacy of zinc oxide nanoparticles (ZnO NPs) derived from Ochradenus arabicus (OA) leaf extract by green technology in PB-challenged Swiss albino rats. The rodents were randomly distributed, under the lab-standardized treatment strategy, into the following six treatment groups: control (group I), PB alone (group II), ZnO alone (group III), ZnO NP alone (group IV), PB + ZnO (group V), and PB + ZnO NPs (group VI). The rats were sacrificed after completion of the treatment, and their blood and liver samples were collected for further analysis. Group II showed extensive toxic effects with altered liver function markers (alanine aminotransferase, aspartate aminotransferase, alkaline phosphatase, lactate dehydrogenase, gamma-glutamyl transferase, glutathione-S-transferase, and thioredoxin reductase) and compromised redox status (SOD, CAT, GR, GPx, GSH, MDA, and total carbonyl content). The histopathological analysis and comet assay further supported the biochemical results of the same group. Besides, group III also showed moderate toxicity evidenced by an alteration in most of the studied parameters while group IV demonstrated mild toxicity after biochemical analysis indicating the excellent biocompatibility of the NPs. However, group VI exhibited attenuation of the PB-induced toxic insults to a significant level as compared to group II, whereas group V failed to show similar improvement in the studied parameters. All these findings entail that the ZnO NPs prepared by green synthesis have significant ameliorative property against PB-induced toxicity in vivo. Moreover, administration of the NPs improved the overall health of the treated animals profoundly. Hence, these NPs have significant therapeutic potential against the toxic effects of PB and similar compounds in vivo, and they are suitable to be used at the clinical and industrial levels.

Restrained management of copper level enhances the antineoplastic activity of imatinib in vitro and in vivo.

The present study was designed to investigate if elevated copper level can be targeted to enhance the efficacy of a significant anticancer drug, imatinib (ITB). The antineoplastic activity of this drug was assessed in the HepG2, HEK-293, MCF-7 and MDA-MD-231 cells targeting elevated copper level as their common drug target. The cell lines were treated with the different doses of copper chloride (Cu II) and disulfiram (DSF) alone as well as in their combinations with the drug for 24 h in standard culture medium and conditions. The treated cells were subjected to various assays including MTT, PARP, p-53, caspase-7, caspase-3, LDH and single cell electrophoresis. The study shows that DSF and Cu (II) synergizes the anticancer activity of ITB to a significant extent in a dose-specific way as evidenced by the combinations treated groups. Furthermore, the same treatment strategy was employed in cancer-induced rats in which the combinations of ITB-DSF and ITB-Cu II showed enhanced antineoplastic activity as compared to ITB alone. However, DSF was more effective than Cu (II) as an adjuvant to the drug. Hence, restrained manipulation of copper level in tumor cells can orchestrate the redox and molecular dispositions inside the cells favoring the induction of apoptosis.

Age Affects the Mitigating Efficacy of Riboflavin Against Cisplatin-Induced Toxicity In Vivo.

Cis-diamminedichloroplatinum (CP), a prominent anticancer drug, exerts toxic insults that are functional to various factors that compromise its antineoplastic activity. Riboflavin (RF) is an essential vitamin and photosensitizer that ameliorates CP-induced toxic insults in vivo in a dose-dependent manner. The aim of the present study is to investigate how age can influence the ameliorative effect of RF against CP-induced toxicity. Ninety male mice were divided into three age groups: young, adult, and old for the present investigation under an established treatment strategy with CP, RF, and their combinations under photoillumination for 1 mo. Their kidneys and serum samples were assessed for redox status [superoxide dismutase, catalase, reduced glutathione, malondialdehyde (MDA), carbonyl contents, and glutathione-S-transferase], biochemical analysis (renal function markers-nitric oxide), comet assay, and histopathology. The adult group showed not only the strongest resistance against the CP-induced toxicity but also the better ameliorative effect of RF followed by the young and old groups, respectively, with well-maintained redox status concomitant with the level of renal function markers, MDA, and carbonyl contents near the control values. Furthermore, comet assay and histopathological evaluation confirmed the results in a dose-dependent manner. Hence, age is an important patient-related factor that can influence the final clinical outcome under personalized chemoradiotherapy.

Recent Updates on the Dynamic Association Between Oxidative Stress and Neurodegenerative Disorders.

Free radicals are generated as byproduct of our body metabolism, and their adverse effect on normal functioning of our body is prevented by body's own antioxidant machinery. Any perturbation in the defense mechanism of antioxidants inside body, its abnormal production or its induction from environment to our body lead to serious threats and is responsible for the development of various neurodegenerative disorders (NDDs). Perturbed antioxidants result in sensory and functional impairments in neuronal cells, which in turn cause NDDs. Free radical attack on neuronal cells plays a catastrophic role in NDDs. Impaired metabolism and generation of excessive reactive oxygen species also lead to a range of NDDs. Free radical induced toxicity is responsible for DNA injury, protein degradation, damage to tissue inflammation and cell death. Besides various genetic and environmental factors, free radical induced oxidative stress is also a major cause of NDDs. Application of upstream and downstream antioxidant therapy to counter oxidative stress can be an effective option in alteration of any neuronal impairment besides free radical scavenging. In the present manuscript, we have presented a comprehensive update on the symptoms, causes and cures of NDDs in relation with their dynamic association with oxidative stress.

Determination of levels of nitric oxide in smoker and nonsmoker patients with chronic periodontitis.

PURPOSE: Cigarette smoking is a major risk factor in periodontal diseases. The pathogenesis of periodontal diseases may be affected by alterations of the inflammatory response by smoke. Nitric oxide (NO) is a gaseous, colorless, highly reactive, short-lived free radical with a pivotal role in the regulation of various physiological and pathological mechanisms in the body. It is important in host defense and homeostasis, on the one hand, whereas, on the other hand, it modulates the inflammatory response in periodontitis, leading to harmful effects. The aim of this study was to assess the levels of NO in both the serum and saliva of smokers and nonsmokers having chronic periodontitis and to compare them with periodontally healthy controls. METHODS: SIXTY SUBJECTS PARTICIPATED IN THE STUDY AND WERE DIVIDED INTO THREE GROUPS: group I, healthy nonsmoking subjects; group II, nonsmoking patients with chronic periodontitis; group III, smoking patients with chronic periodontitis. Each group consisted of twenty subjects. The biochemical estimation of NO in the collected serum and in the saliva was performed using the Griess colorimetric reaction. RESULTS: The results showed that the mean value of the salivary and serum NO was greater in group II than in group I, and also greater in group III than in group II. CONCLUSIONS: NO appears to play an important and rather complex role in the immuno-inflammatory process and in the remodeling and maintenance of osseous structures. It is therefore logical that modulation of this mediator has potential for the treatment of a number of inflammatory conditions including periodontal disease.